双酚A对原始卵泡池动态变化影响机制的研究进展

doi:10.3877/cma.j.issn.1673-5250.2017.05.018

中华妇幼临床医学杂志(电子版) ›› 2017, Vol. 13 ›› Issue (05) : 601 -605. doi: 10.3877/cma.j.issn.1673-5250.2017.05.018

所属专题：文献；

综述

双酚A对原始卵泡池动态变化影响机制的研究进展

陈宝红¹, 唐露¹, 袁东智², 胡颖³^,^†(

), 谭世桥³

^1. 610041　成都，四川大学华西第二医院妇产科、出生缺陷与相关妇儿疾病教育部重点实验室；610041　成都，四川大学华西临床医学院
^2. 610041　成都，四川大学华西基础医学与法医学院生理教研室
^3. 610041　成都，四川大学华西第二医院妇产科、出生缺陷与相关妇儿疾病教育部重点实验室

收稿日期:2017-07-15 修回日期:2017-08-28 出版日期:2017-10-01
通信作者: 胡颖

Effects of bisphenol A on the dynamic changes of primordial follicle pool: mechanism research progress

Baohong Chen¹, Lu Tang¹, Dongzhi Yuan², Ying Hu³^,^†(), Shiqiao Tan³

^1. Department of Obstetrics and Gynecology, Key Laboratory of Birth Defects and Related Diseases of Women and Children (Sichuan University), Ministry of Education, West China Second University Hospital, Sichuan University, Chengdu 610041, Sichuan Province, China；West China School of Medicine, Sichuan University, Chengdu 610041, Sichuan Province, China
^2. Physiology Teaching and Research Section, West China School of Preclinical and Forensic Medicine, Sichuan University, Chengdu 610041, Sichuan Province, China
^3. Department of Obstetrics and Gynecology, Key Laboratory of Birth Defects and Related Diseases of Women and Children (Sichuan University), Ministry of Education, West China Second University Hospital, Sichuan University, Chengdu 610041, Sichuan Province, China

Received:2017-07-15 Revised:2017-08-28 Published:2017-10-01
Corresponding author: Ying Hu
About author:
Corresponding author: Hu Ying, Email: huyingmyworld@126.com

全文 ( ) 下载PDF ( ) 导出引用

引用本文：

陈宝红, 唐露, 袁东智, 胡颖, 谭世桥. 双酚A对原始卵泡池动态变化影响机制的研究进展[J]. 中华妇幼临床医学杂志(电子版), 2017, 13(05): 601-605.

Baohong Chen, Lu Tang, Dongzhi Yuan, Ying Hu, Shiqiao Tan. Effects of bisphenol A on the dynamic changes of primordial follicle pool: mechanism research progress[J]. Chinese Journal of Obstetrics & Gynecology and Pediatrics(Electronic Edition), 2017, 13(05): 601-605.

原始卵泡是女性的基本生殖单位，也是卵母细胞储备的唯一形式。如果原始卵泡产生的数量不足，被过度、过早激活或发生闭锁，都可能导致早发性卵巢功能不全(POI)。导致POI的病因多且复杂，环境内分泌干扰物(EED)对POI等女性生殖系统疾病的影响作用，受到研究者关注。双酚A为重要的EED之一，具有弱雌激素活性。目前研究结果显示，双酚A对原始卵泡池的动态变化有一定影响。因此，笔者拟就双酚A对原始卵泡池动态变化影响机制的最新研究进展进行综述，旨在为与双酚A相关的POI等女性生殖系统疾病的预防和治疗，提供理论依据。

关键词: 内分泌干扰物, 卵泡, 卵原细胞, 早发性卵巢功能不全, 双酚A, 女(雌)性

Primordial follicle is the basic reproductive unit of women, also the only reservation form for oocyte. If the generated number of primordial follicles are insufficient, or being excessively, prematurely activated or follicular atresia occured, premature ovarian insufficiency (POI) may occur. The causes of POI are many and complicated, and the effects of environmental endocrine disruptors (EED) on POI and other diseases of female reproductive system have attracted attention of researchers. Bisphenol A, one of typical EED, has weak estrogenic activity. Accumulating evidence has suggested that bisphenol A has effects on the dynamics of primordial follicle pool. In this article, we review the latest research progress of the mechanism of bisphenol A effects on the dynamics of primordial follicle pool, to provide theoretical basis for prevention and treatment of POI and other diseases of female reproductive system.

Key words: Endocrine disruptors, Ovarian follicle, Oogonia, Premature ovarian insufficiency, Bisphenol A, Female

[1]	王建军，王晓民. 生理科学进展[M]. 北京：高等教育出版社，2014: 53-54.
[2]	高辉，郁琦，徐苓. 原始卵泡的形成与发育[J]. 生殖医学杂志，2007, 16(6): 453-456.
[3]	Pepling ME. From primordial germ cell to primordial follicle: mammalian female germ cell development[J]. Genesis, 2006, 44(12): 622-632.
[4]	Hengstler JG, Foth H, Gebel T, et al. Critical evaluation of key evidence on the human health hazards of exposure to bisphenol A[J]. Crit Rev Toxicol, 2011, 41(4): 263-291.
[5]	Peretz J, Gupta RK, Singh J, et al. Bisphenol A impairs follicle growth, inhibits steroidogenesis, and downregulates rate-limiting enzymes in the estradiol biosynthesis pathway[J]. Toxicol Sci, 2011, 119(1): 209-217.
[6]	Vandenberg LN, Chahoud I, Heindel JJ, et al. Urinary, circulating, and tissue biomonitoring studies indicate widespread exposure to bisphenol A[J]. Cien Saude Colet, 2012, 17(2): 407-434.
[7]	Takemura H, Ma J, Sayama K, et al. In vitro and in vivo estrogenic activity of chlorinated derivatives of bisphenol A[J]. Toxicology, 2005, 207(2): 215-221.
[8]	Rochester JR. Bisphenol A and human health: a review of the literature[J]. Reprod Toxicol, 2013, 42: 132-155.
[9]	Diamanti-Kandarakis E, Bourguignon JP, Giudice LC, et al. Endocrine-disrupting chemicals: an Endocrine Society scientific statement[J]. Endocr Rev, 2009, 30(4): 293-342.
[10]	Balabaniĉ D, Rupnik M, Klemenĉiĉ AK. Negative impact of endocrine-disrupting compounds on human reproductive health[J]. Reprod Fertil Dev, 2011, 23(3): 403-416.
[11]	秦定霞，崔毓桂，刘嘉茵. 双酚A对生殖系统的影响及其作用机制[J]. 国际生殖健康/计划生育杂志，2010, 29(1): 26-29.
[12]	孙莹，张丹，贾海军. 环境内分泌干扰物与女性生殖健康[J/CD]. 中华妇幼临床医学杂志(电子版), 2007, 3(3): 177-180.
[13]	晏佩佩，潘晓燕，王雪楠，等. 双酚A对雌性生殖器官的影响及作用机制[J]. 中国医学科学院学报，2013, 35(6): 683-688.
[14]	Machtinger R, Orvieto R. Bisphenol A, oocyte maturation, implantation, and IVF outcome: review of animal and human data[J]. Reprod Biomed Online, 2014, 29(4): 404-410.
[15]	Buehr M. The primordial germ cells of mammals: some current perspectives[J]. Exp Cell Res, 1997, 232(2): 194-207.
[16]	Kezele P, Skinner MK. Regulation of ovarian primordial follicle assembly and development by estrogen and progesterone: endocrine model of follicle assembly[J]. Endocrinology, 2003, 144(8): 3329-3337.
[17]	Mazaud S, Guyot R, Guigon CJ, et al. Basal membrane remodeling during follicle histogenesis in the rat ovary: contribution of proteinases of the MMP and PA families[J]. Dev Biol, 2005, 277(2): 403-416.
[18]	Karavan JR, Pepling ME. Effects of estrogenic compounds on neonatal oocyte development[J]. Reprod Toxicol, 2012, 34(1): 51-56.
[19]	Zhang T, Li L, Qin XS, et al. Di-(2-ethylhexyl) phthalate and bisphenol A exposure impairs mouse primordial follicle assembly in vitro[J]. Environ Mol Mutagen, 2014, 55(4): 343-353.
[20]	Zhang HQ, Zhang XF, Zhang LJ, et al. Fetal exposure to bisphenol A affects the primordial follicle formation by inhibiting the meiotic progression of oocytes[J]. Mol Biol Rep, 2012, 39(5): 5651-5657.
[21]	Chao HH, Zhang XF, Chen B, et al. Bisphenol A exposure modifies methylation of imprinted genes in mouse oocytes via the estrogen receptor signaling pathway[J]. Histochem Cell Biol, 2012, 137(2): 249-259.
[22]	孙理兰，谷朝勇，潘庆杰，等. 原始卵泡形成与早期卵泡发育的遗传调控[J]. 生物技术通讯，2008, 19(1): 120-124.
[23]	李爽，马灵芝，夏天，等. 影响始基卵泡启动募集的调控因素[J]. 天津医药，2010, 38(4): 342-345.
[24]	Braw-Tal R, Yossefi S. Studies in vivo and in vitro on the initiation of follicle growth in the bovine ovary[J]. J Reprod Fertil, 1997, 109(1): 165-171。
[25]	聂明月，杨晓葵. 调控原始卵泡生长发育机制的研究进展[J]. 国际生殖健康/计划生育杂志，2014，33(4): 306-309.
[26]	黄健，郑月慧，徐良全. 原始卵泡生长启动调控机制的研究进展[J]．生殖医学杂志，2007, 16(5): 372-376.
[27]	Adhikari D, Liu K. Molecular mechanisms underlying the activation of mammalian primordial follicles[J]. Endocr Rev, 2009, 30(5): 438-464.
[28]	Zhao Q, Ma Y, Sun NX, et al. Exposure to bisphenol A at physiological concentrations observed in Chinese children promotes primordial follicle growth through the PI3K/Akt pathway in an ovarian culture system[J]. Toxicol In Vitro, 2014, 28(8): 1424-1429.
[29]	赵倩. 双酚A对新生小鼠始基卵泡体外生长的影响及作用机制研究[D]. 上海：第二军医大学，2014.
[30]	Reddy P, Liu L, Adhikari D, et al. Oocyte-specific deletion of Pten causes premature activation of the primordial follicle pool[J]. Science, 2008, 319(5863): 611-613.
[31]	李昱辰. 青春期前双酚A暴露对大鼠卵泡发育的影响及其相关基因的表达与调控[D]．福州：福建医科大学，2013.
[32]	马彦超. 双酚A对雌性大鼠青春期前卵泡发育相关基因表达的影响[J]. 现代医学，2016, 44(2): 230-233.
[33]	Rajareddy S, Reddy P, Du C, et al. p27kip1 (cyclin-dependent kinase inhibitor 1B) controls ovarian development by suppressing follicle endowment and activation and promoting follicle atresia in mice[J]. Mol Endocrinol, 2007, 21(9): 2189-2202.
[34]	Rodríguez HA, Santambrosio N, Santamaría CG, et al. Neonatal exposure to bisphenol A reduces the pool of primordial follicles in the rat ovary[J]. Reprod Toxicol, 2010, 30(4): 550-557.
[35]	Shin BS, Yoo SD, Cho CY, et al. Maternal-fetal disposition of bisphenol a in pregnant Sprague-Dawley rats[J]. J Toxicol Environ Health Part A, 2002, 65(5-6): 395-406.
[36]	周伟. 双酚A对大鼠卵巢甾体激素生成影响的初步研究[D]. 南京：南京医科大学，2007: 2111-2113.
[37]	金艳梅. 颗粒细胞对卵泡发育的影响[J]. 中国畜牧兽医，2010, 37(8): 69-72.
[38]	Durlinger AL, Gruijters MJ, Kramer P, et al. Anti-Müllerian hormone inhibits initiation of primordial follicle growth in the mouse ovary[J]. Endocrinology, 2002, 143(3): 1076-1084.
[39]	Gruijters MJ, Visser JA, Durlinger AL, et al. Anti-Müllerian hormone and its role in ovarian function[J]. Mol Cell Endocrinol, 2003, 211(1-2): 85-90.
[40]	姚燕如，瞿鑫兰，张铭，等. 卵泡液中双酚A浓度与卵巢储备功能下降的相关性[J]. 武汉大学学报(医学版), 2017, 38(5): 762-764.
[41]	丁爱军，苏雷. 哺乳动物卵泡闭锁的研究[J]. 中国畜禽种业，2007, 3(6): 34-37.
[42]	谭艳芳. 双酚A对成熟SD雌性大鼠卵巢的毒性作用[D]. 衡阳：南华大学，2011.
[43]	Peretz J, Craig ZR, Flaws JA. Bisphenol A inhibits follicle growth and induces atresia in cultured mouse antral follicles independently of the genomic estrogenic pathway[J]. Biol Reprod, 2012, 87(3): 63.
[44]	Rivera OE, Varayoud J, Rodríguez HA, et al. Neonatal exposure to bisphenol A or diethylstilbestrol alters the ovarian follicular dynamics in the lamb[J]. Reprod Toxicol, 2011, 32(3): 304-312.

[1]	顾娟, 孙擎擎, 胡方方, 曹义娟, 祁玉娟. 子宫内膜容受性检测改善胚胎反复种植失败患者妊娠结局的临床应用[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(05): 582-587.
[2]	林昌盛, 战军, 肖雪. 上皮性卵巢癌患者诊疗中基因检测及分子靶向药物治疗[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(05): 505-510.
[3]	马敏榕, 李聪, 周勤. 宫颈癌治疗研究现状[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(05): 497-504.
[4]	韩春颖, 王婷婷, 李艳艳, 朴金霞. 子宫内膜癌患者淋巴管间隙浸润预测因素研究现状[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(04): 403-409.
[5]	陈荟竹, 郭应坤, 汪昕蓉, 宁刚, 陈锡建. 上皮性卵巢癌"二元论模型"的分子生物学研究现状[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(04): 394-402.
[6]	周东杰, 蒋敏, 范海瑞, 高玲玲, 孔祥, 卢丹, 王丽萍. 非编码RNA在卵泡发育成熟中作用及其机制的研究现状[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(04): 387-393.
[7]	刘艳艳, 谭曦, 彭雪. 妊娠合并膀胱低度恶性潜能乳头状尿路上皮肿瘤并文献复习[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(02): 212-218.
[8]	魏权, 张燊, 陈慧佳, 邹姮, 胡丽娜. 女性生殖道微生物群与辅助生殖技术相关性研究现状[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(02): 151-155.
[9]	胡欧婵, 黄仲英. 不明原因复发性流产患者的治疗研究现状与展望[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(01): 16-22.
[10]	张晓芳, 王平. 阴道黑色素瘤诊疗研究现状[J]. 中华妇幼临床医学杂志(电子版), 2022, 18(06): 621-626.
[11]	尤琳, 蔡振伟, 乔荆. Turner综合征临床研究现状[J]. 中华妇幼临床医学杂志(电子版), 2022, 18(06): 634-639.
[12]	孙环蕊, 张若鹏. 复发性流产与肠道微生物群失衡[J]. 中华妇幼临床医学杂志(电子版), 2022, 18(05): 506-511.
[13]	陈雨婷, 杨烨, 谢奇君, 凌秀凤. 女性不孕不育相关疾病患者的生殖道微生物组成异常研究现状[J]. 中华妇幼临床医学杂志(电子版), 2022, 18(05): 615-620.
[14]	赵春桃, 梁峰雪, 杨瑞敏, 陈云璇, 陈曦, 焦桂清. 三维盆底超声预测产妇发生盆腔脏器脱垂的价值及影响因素[J]. 中华妇幼临床医学杂志(电子版), 2022, 18(05): 606-614.
[15]	程亚飞, 任长远, 李海马, 孙恺, 马亚群. FSTL1基因在胶质瘤发展中作用的研究[J]. 中华神经创伤外科电子杂志, 2023, 09(04): 206-215.

阅读次数

全文

摘要

选择文件类型/文献管理软件名称

选择包含的内容

Effects of bisphenol A on the dynamic changes of primordial follicle pool: mechanism research progress

模态框（Modal）标题

选择文件类型/文献管理软件名称

选择包含的内容

Effects of bisphenol A on the dynamic changes of primordial follicle pool: mechanism research progress